CN218591577U - All-in-one machine with crosscut and punching functions - Google Patents

Abstract

The utility model is suitable for a pipe cutting machine technical field provides an all-in-one machine with crosscut and punching function, including quick-witted case, feed assembly, punching subassembly, hydraulically operated fixture and crosscut subassembly, the quick-witted case provides the effect of stabilizing and supporting for whole all-in-one machine; the feeding assembly can realize the effect of clamping the pipe fitting, avoids the influence of stress displacement on the cutting effect of the pipe fitting during cutting, clamps the pipe fitting, then drives the pipe fitting to slide on the first slide rail, and realizes the effect of driving the pipe fitting to feed; the second hydraulic cylinder of the punching assembly stretches and retracts to drive the lifting plate and the punching knife to descend so as to punch the pipe fitting, the descending depth of the second hydraulic cylinder can be used for controlling the punching depth, the first sliding block can drive the punching assembly to move on the first sliding rail so as to realize punching at any position of the pipe fitting, and the practicability is wider; the transverse cutting assembly can perform pipe cutting work on the pipe fitting when the pipe fitting is clamped by the hydraulic clamp; the transverse cutting and the punching of two processes for machining the pipe fitting are realized on the integrated machine.

Description

All-in-one machine with crosscut and punching functions

Technical Field

The utility model belongs to the technical field of the pipe cutting machine, especially, relate to an all-in-one with crosscut and punching function.

Background

The principle of the pipe cutting machine is that through the mutual matching of a pneumatic oil pushing type, an electric system controls the movement direction of a pneumatic system to push an oil path to do linear reciprocating movement, and in the reciprocating movement, the movement of the pneumatic oil path is controlled and changed according to signals detected by the limiting of a carriage, so that an expected feed route is achieved. The automatic pipe cutting machine has the functions of automatic material clamping, feeding, size setting, fixed number stopping, work metering and the like.

A retrieval authorization publication No. CN210587413U discloses a cutting device, in particular to a pipe cutting machine, which comprises a frame, wherein the frame is provided with a feeding device, a displacement detector and a cutting device. The feeding device comprises a rotating motor and two pulley blocks, wherein the two pulley blocks comprise an upper pulley and a lower pulley which are elastically abutted with each other up and down. The displacement detector is used for detecting the moving distance of the pipe fitting, and a driving mechanism in the cutting device drives the cutter to cut the pipe fitting. The pipe cutting machine also comprises a controller, and the controller is respectively connected with the displacement detector, the rotating motor and the driving mechanism; after the displacement detector detects that the pipe fitting moves for a certain distance, the controller controls the rotating motor to stop rotating, and controls the driving mechanism to drive the cutter to move, so that the pipe fitting is cut into two sections. Above-mentioned pipe cutting machine provides the pipe fitting of waiting to cut through feedway, detects the distance that the pipe fitting removed through displacement detector, and when the pipe fitting removed preset distance, above-mentioned cutting device cut off the pipe fitting, obtains the pipe fitting of certain length.

Above-mentioned utility model still exists following not enough: when in production, the pipe fitting needs to be punched after the pipe fitting is cut, the utility model can only cut the pipe fitting with any length, and the pipe fitting which is cut can not be punched on the cutting machine, so that a process is added for machining the pipe fitting, thereby wasting the production cost and the labor cost; the utility model can not realize the simultaneous cutting of multiple pipes, thus reducing the production efficiency; therefore the utility model provides an all-in-one with crosscut and function of punching solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides an all-in-one with crosscut and function of punching aims at solving the problem that the background art provided.

The utility model is realized in such a way that an integrated machine with transverse cutting and punching functions comprises a case, a feeding component, a punching component, a hydraulic clamp and a transverse cutting component;

the case is horizontally arranged, the case is L-shaped and is internally of a hollow structure, a first slide rail is fixedly arranged in the middle of the top surface of the longer end of the case, a second slide rail is fixedly arranged on the top surface of the shorter end of the case, and the second slide rail is positioned on one side of the first slide rail and is perpendicular to the first slide rail;

the feeding assembly and the punching assembly are movably arranged on the first slide rail, the feeding assembly and the punching assembly are located on the same vertical plane, two hydraulic clamps are arranged on the two slide rails, the hydraulic clamps are distributed at intervals and are located on one side of the first slide rail and perpendicular to the first slide rail, and the transverse cutting assembly is movably arranged on the second slide rail.

Preferably, the feeding assembly comprises a base, two first sliding blocks which are distributed at intervals are fixedly arranged on the bottom surface of the base, the first sliding blocks are matched with the first sliding rails and are in sliding connection with the first sliding rails, a plurality of positioning grooves which are distributed at intervals uniformly along the extending direction of the first sliding rails are formed in the top surface of the base, four first supporting columns which are distributed in a matrix manner are fixedly arranged on the top surface of the base, a first top plate is fixedly arranged on the top surfaces of the four first supporting columns, a first hydraulic cylinder is fixedly arranged in the middle of the top surface of the first top plate, the telescopic end of the first hydraulic cylinder penetrates through the first top plate and is fixedly connected with the first pressing plate, the first pressing plate is located between the base and the first top plate, and the four first supporting columns penetrate through the first pressing plate and are in sliding connection with the first pressing plate;

the subassembly that punches includes two relative interval distribution's second pillar, two the second pillar is fixed to be located the base top surface, two the second pillar is located first roof one side, two the fixed second roof that is equipped with of second pillar top surface, the fixed second pneumatic cylinder that is equipped with in top surface intermediate position of second roof, the second pneumatic cylinder output runs through second roof and fixed connection lifter plate, the lifter plate is located first clamp plate top, two the second pillar runs through the lifter plate and with lifter plate sliding connection.

Preferably, a pipe fitting is accommodated in the positioning groove, and the pipe fitting is any one of a circular pipe, a square pipe and a special pipe.

Preferably, the first top plate is of a convex structure, and a plurality of punching grooves are formed in the protruding part of the first top plate and are uniformly distributed at intervals along the extending direction of the first top plate; the lifting plate bottom surface is fixed with a plurality of edges the lifting plate extending direction evenly spaced distribution's the sword of punching, punch the sword with the groove one-to-one that punches, and every punch the sword with correspond the groove of punching is coaxial.

Preferably, the hydraulic fixture is fixedly arranged on the top surface of the case, a plurality of positioning grooves are formed in a fixing seat of the hydraulic fixture and are uniformly distributed at intervals along the extension direction of the hydraulic fixture, and the positioning grooves in the feeding assembly correspond to and are coaxial with the positioning grooves in the hydraulic fixture one to one.

Preferably, the crosscut subassembly includes the fixed block, the fixed second slider that is equipped with two relative interval distribution in bottom surface of fixed block, the second slider with second slide rail phase-match and sliding connection, the fixed cutting machine head gearbox that is equipped with on a side of fixed block, the motor is connected to the cutting machine head gearbox, the output of motor with the subassembly that punches sets up relatively, the fixed cutting knife that is equipped with on the output of motor.

Preferably, a waste box is arranged below the hydraulic clamp and is far away from one side of the punching assembly, and a containing groove is fixedly formed in the outer side face of the hydraulic clamp.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the pipe cutting machine is provided with a feeding assembly, a pipe to be cut is sent into a positioning groove in the feeding assembly and a positioning groove of a hydraulic clamp, a first hydraulic cylinder is started to drive a first pressing plate to move downwards along a first support, when the first pressing plate presses the pipe, the pipe can be firmly fixed in the positioning groove, the hydraulic clamp is started to further clamp the cutting end of the pipe to be cut, a transverse cutting assembly is started to cut the pipe, after the pipe is cut, the first hydraulic cylinder is started to drive the first pressing plate to move upwards along the first support, a first sliding block drives the feeding assembly to move along a first sliding rail in the opposite direction of the cutting direction, then the first hydraulic cylinder is started to drive the first pressing plate to move downwards along the first support, when the first pressing plate presses the pipe again, the first sliding block drives the feeding assembly to move along the first sliding rail in the cutting direction, automatic feeding of the pipe is achieved, and time and labor waste of manual discharging are avoided;

2. the utility model discloses can punch to the pipe fitting, the flexible lifter plate that drives of second pneumatic cylinder descends and punches to the pipe fitting, and the degree of depth that the second pneumatic cylinder descends can be used for controlling the degree of depth that punches to first slider can drive the subassembly that punches and move on first slide rail, can realize punching in the arbitrary position of pipe fitting like this, and the practicality is wider;

3. the forward and backward distances of the feeding assembly in the utility model are all controlled by programs, so that the length of the cut pipe fitting can be adjusted at will, the precision is good, compared with the prior art, the labor is reduced, and the quality of the pipe fitting is increased;

4. the utility model discloses can realize that multitube spare cuts simultaneously, the pipe fitting is pressed from both sides tightly under the effect of feeding subassembly and hydraulically operated fixture, and the cutting knife is difficult for taking place the problem that pipe fitting atress skew and cutting plane are uneven when cutting the pipe fitting like this.

Drawings

Fig. 1 is a front perspective view of the overall structure of the present invention;

fig. 2 is a rear perspective view of the overall structure of the present invention;

fig. 3 is a rear view of the overall structure of the present invention;

fig. 4 is a top view of the overall structure of the present invention;

fig. 5 is a side view of the overall structure of the present invention;

fig. 6 is a perspective view of the feeding assembly and the punching assembly of the present invention.

In the figure:

1. a chassis; 11. a first slide rail; 12. a second slide rail; 13. a waste bin; 14. a receiving groove;

2. a feeding assembly; 21. a base; 211. a first slider; 212. positioning a groove; 213. a pipe fitting; 22. a first support; 23. a first top plate; 231. punching a hole groove; 24. a first hydraulic cylinder; 25. a first platen;

3. a punching assembly; 31. a second support; 32. a second top plate; 33. a second hydraulic cylinder; 34. a lifting plate; 341. a punching knife;

4. a hydraulic clamp;

5. a crosscutting assembly; 51. a fixed block; 511. a second slider; 52. a cutter head gearbox; 53. a motor; 54. a cutting knife.

Detailed Description

The technical solutions of the present invention will be described more clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present invention, not all embodiments.

The components of the embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 6, the present invention provides a technical solution: an integrated machine with functions of transverse cutting and punching comprises a case 1, a feeding assembly 2, a punching assembly 3, a hydraulic clamp 4 and a transverse cutting assembly 5;

the cabinet 1 is horizontally arranged, the cabinet 1 is L-shaped and has a hollow structure, a first slide rail 11 is fixedly arranged in the middle of the top surface of the longer end of the cabinet 1, a second slide rail 12 is fixedly arranged on the top surface of the shorter end of the cabinet 1, and the second slide rail 12 is positioned on one side of the first slide rail 11 and is vertical to the first slide rail 11;

on feeding subassembly 2 and the activity of the subassembly 3 that punches located first slide rail 11, feeding subassembly 2 and the subassembly 3 that punches lie in same vertical plane, and hydraulic fixture 4 is equipped with two, and two relative interval distribution of hydraulic fixture 4, two hydraulic fixture 4 all lie in first slide rail 11 one side and perpendicular with first slide rail 11, and the activity of crosscut subassembly 5 is located on second slide rail 12.

In the embodiment, the case 1 provides a stabilizing and supporting function for the whole all-in-one machine; the feeding assembly 2 can clamp the pipe 213, so that the pipe 213 is prevented from being stressed and displaced during cutting to influence the cutting effect, the feeding assembly 2 clamps the pipe 213 and then drives the pipe 213 to slide on the first slide rail 11, the feeding effect of the pipe 213 is realized, the feeding is controlled by a program, the pipe 213 can be cut at any fixed length, and the cutting precision of the pipe 213 is improved; the perforating assembly 3 can perforate the tubular 213 before the tubular 213 is cut; when the feeding assembly 2 feeds the pipe 213 to the hydraulic clamp 4, the hydraulic clamp 4 is started to clamp the pipe 213; the crosscutting assembly 5 is capable of performing a pipe cutting operation on the pipe 213 when the pipe 213 is gripped by the hydraulic clamp 4.

Referring to fig. 6, the feeding assembly 2 includes a base 21, two first sliding blocks 211 that are distributed at intervals relatively are fixedly disposed on a bottom surface of the base 21, the first sliding blocks 211 are matched with and slidably connected to the first sliding rails 11, a plurality of positioning slots 212 that are distributed at intervals uniformly along an extending direction of the first sliding rails 11 are disposed on a top surface of the base 21, four first supporting columns 22 that are distributed in a matrix are fixedly disposed on the top surface of the base 21, first top plates 23 are fixedly disposed on top surfaces of the four first supporting columns 22, first hydraulic cylinders 24 are fixedly disposed in middle positions of the top surfaces of the first top plates 23, telescopic ends of the first hydraulic cylinders 24 penetrate through the first top plates 23 and are fixedly connected to first pressing plates 25, the first pressing plates 25 are located between the base 21 and the first top plates 23, and the four first supporting columns 22 penetrate through the first pressing plates 25 and are slidably connected to the first pressing plates 25;

the punching assembly 3 comprises two second supports 31 which are distributed at intervals relatively, the two second supports 31 are fixedly arranged on the top surface of the base 21, the two second supports 31 are positioned on one side of the first top plate 23, the second top plates 32 are fixedly arranged on the top surfaces of the two second supports 31, the second hydraulic cylinders 33 are fixedly arranged in the middle positions of the top surfaces of the second top plates 32, the output ends of the second hydraulic cylinders 33 penetrate through the second top plates 32 and are fixedly connected with the lifting plate 34, the lifting plate 34 is positioned above the first pressing plate 25, and the two second supports 31 penetrate through the lifting plate 34 and are slidably connected with the lifting plate 34.

In this embodiment, the feeding assembly 2 can realize the function of clamping the pipe 213, so as to prevent the pipe 213 from being stressed and shifted during cutting to affect the cutting effect, and the feeding assembly 2 clamps the pipe 213 and then drives the pipe 213 to slide on the first slide rail 11, thereby realizing the function of driving the pipe 213 to feed. The method is realized by the following steps: when the pipe 213 is placed inside the positioning groove 212, the first hydraulic cylinder 24 is started to drive the first pressing plate 25 to move downwards along the first pillar 22, and when the first pressing plate 25 presses the pipe 213, the pipe 213 is firmly fixed inside the positioning groove 212, so that the pipe 213 is clamped; after the pipe 213 is clamped inside the positioning slot 212, the first sliding block 211 drives the clamped pipe 213 to move on the first sliding rail 11 toward the transverse component 5, so as to realize cutting and feeding of the pipe 213.

Referring to fig. 6, the pipe 213 is accommodated in the positioning groove 212, and the pipe 213 is any one of a circular pipe, a square pipe, and a special pipe.

In the embodiment, the pipe 213 is placed in the inner space of the positioning groove 212, and a plurality of pipe 213 can be placed in a plurality of positioning grooves 212, so as to achieve the purpose of processing a plurality of pipes 213 at the same time; the positioning groove 212 may receive any one of a circular pipe, a square pipe, and a special pipe according to the shape of the pipe member 213.

Referring to fig. 6, the first top plate 23 is a convex structure, and the protruding portion of the first top plate 23 is provided with a plurality of punching slots 231 uniformly distributed at intervals along the extending direction of the first top plate 23; the bottom surface of the lifting plate 34 is fixedly provided with a plurality of punching knives 341 uniformly distributed at intervals along the extending direction of the lifting plate 34, the punching knives 341 correspond to the punching grooves 231 one by one, and each punching knife 341 is coaxial with the corresponding punching groove 231.

In the present embodiment, the feeding assembly 2 clamps the pipe 213, the second hydraulic cylinder 33 is activated to drive the lifting plate 34 to move downward along the first support column 22, the punching blade 341 on the bottom surface of the lifting plate 34 punches the pipe 213 in the positioning slot 212 along the punching slot 231, and the second hydraulic cylinder 33 can control the depth of the punched hole.

Referring to fig. 1, the hydraulic clamp 4 is fixed on the top surface of the chassis 1, a plurality of positioning slots 212 are formed in a fixing seat of the hydraulic clamp 4 and are evenly spaced along the extending direction of the hydraulic clamp 4, and the positioning slots 212 in the feeding assembly 2 are corresponding to and coaxial with the positioning slots 212 in the hydraulic clamp 4.

In this embodiment, the hydraulic clamp 4 is composed of a fixed seat and a pneumatic clamping seat, and the top surface of the fixed seat is provided with a positioning groove 212; when the pipe 213 is to be cut, the two hydraulic clamps 4 are closed, the feeding assembly 2 drives the pipe 213 to feed in the cutting direction, the pipe 213 is sent into the positioning grooves 212 of the two hydraulic clamps 4, the two hydraulic clamps 4 are started to clamp the pipe 213, when the cutting end of the pipe 213 is clamped by the hydraulic clamps 4, the cutting knife 54 cuts the pipe 213 to ensure that the cutting force of the pipe 213 cannot be shifted, the problem that the cutting surface of the pipe 213 inclines and the like cannot be caused, when the cutting knife 54 transversely cuts the pipe 213, one of the two hydraulic clamps 4 clamps the uncut pipe 213, and the other clamps the cut pipe 213; the positioning grooves 212 in the hydraulic clamp 4 and the positioning grooves 212 in the feeding assembly 2 are in a one-to-one correspondence, and the corresponding positioning grooves 212 are in a coaxial relationship, so that the pipe 213 is straight and is not bent when being clamped.

Referring to fig. 1, the transverse cutting assembly 5 includes a fixed block 51, two second sliding blocks 511 which are relatively spaced and distributed are fixedly disposed on a bottom surface of the fixed block 51, the second sliding blocks 511 are matched with and slidably connected to the second sliding rails 12, a cutter head gearbox 52 is fixedly disposed on a side surface of the fixed block 51, the cutter head gearbox 52 is connected to a motor 53, an output end of the motor 53 is disposed opposite to the punching assembly 3, and a cutter 54 is fixedly disposed on an output end of the motor 53.

In this embodiment, when the feeding assembly 2 carries the pipe 213 to feed to the hydraulic clamp 4, the hydraulic clamp 4 is started to clamp one end of the pipe 213, the second slider 511 drives the transverse cutting assembly 5 to move towards the pipe 213 along the second slide rail 12, and the motor 53 is started to drive the cutting knife 54 to rotate, so that the pipe 213 is cut when the cutting knife 54 contacts the pipe 213.

Referring to fig. 1, a waste bin 13 is disposed below the hydraulic clamp 4, and a receiving slot 14 is fixedly disposed on an outer side surface of the hydraulic clamp 4 on a side away from the punching assembly 3.

In the embodiment, after the pipe 213 is placed, the transverse cutting assembly 5 transversely cuts a first knife on the pipe 213, but because the pipe 213 is placed, the lengths of the pipes 213 cut by the first knife are not necessarily consistent, so that the two hydraulic clamps 4 are not close but are separated when the first knife is cut, and waste materials can directly fall into the waste bin 13 after the first knife is cut; when the second knife is cut, the two hydraulic clamps 4 are closed, and then the feeding assembly 2 feeds the uncut pipe 213, so that the processed pipe 213 is pushed into the accommodating groove 14 to accommodate the finished pipe.

The utility model discloses a theory of operation and use flow: placing a long pipe 213 with cutting in the positioning groove 212 in the feeding assembly 2, the positioning groove 212 in the punching assembly 3 and the positioning groove 212 in the hydraulic fixture 4, wherein one end of the pipe 213 to be cut exceeds one positioning groove 212 of one hydraulic fixture 4, starting the first hydraulic cylinder 24 to drive the first pressing plate 25 to move downwards along the first pillar 22 to clamp the pipe 213, starting the two hydraulic fixtures 4 to clamp the cutting end of the pipe 213, starting the second hydraulic cylinder 33 to drive the lifting plate 34 and the punching knife 341 to move downwards along the second pillar 31 to punch the pipe 213, then starting the second sliding block 511 to drive the transverse cutting assembly 5 to move towards the pipe 213, simultaneously starting the motor 53 to drive the cutting knife 54 to rotate to cut the pipe 213 to be cut, and enabling the cut first waste to fall into the waste bin 13, and resetting the assembly 5; then, the first hydraulic cylinder 24 is started to drive the first pressing plate 25 to move upwards along the first support 22, then the first sliding block 211 drives the feeding component 2 and the punching component 3 to move in the opposite direction of the cutting knife 54, then the first hydraulic cylinder 24 is started to drive the first pressing plate 25 to move downwards along the first support 22 to clamp the pipe 213 again, and meanwhile, the first sliding block 211 drives the feeding component 2 and the punching component 3 to move towards the cutting knife 54, so that the feeding of the pipe 213 to be cut is realized; at this time, the two hydraulic clamps 4 will be close to each other to clamp the pipe 213, the cutting knife 54 will cut the pipe 213, and then the feeding assembly 2 will repeatedly feed the pipe 213 to be cut, so as to realize the automatic feeding of the pipe 213 to be cut, and the pipe 213 after being cut will be fed and pushed into the accommodating groove 14 to realize the accommodating.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides an all-in-one with crosscut and punching function which characterized in that: the punching machine comprises a case (1), a feeding assembly (2), a punching assembly (3), a hydraulic clamp (4) and a transverse cutting assembly (5);

the case (1) is horizontally arranged, the case (1) is L-shaped, the interior of the case (1) is of a hollow structure, a first slide rail (11) is fixedly arranged in the middle of the top surface of the longer end of the case (1), a second slide rail (12) is fixedly arranged on the top surface of the shorter end of the case (1), and the second slide rail (12) is positioned on one side of the first slide rail (11) and is perpendicular to the first slide rail (11);

feed subassembly (2) with subassembly (3) activity of punching is located on first slide rail (11), feed subassembly (2) with subassembly (3) of punching is located same vertical plane, hydraulic fixture (4) are equipped with two, two hydraulic fixture (4) relative interval distribution, two hydraulic fixture (4) all are located first slide rail (11) one side and with first slide rail (11) are perpendicular, crosscut subassembly (5) activity is located on second slide rail (12).

2. An integrated machine with cross cutting and punching functions as claimed in claim 1, characterized in that: the feeding assembly (2) comprises a base (21), two first sliding blocks (211) which are distributed at intervals are fixedly arranged on the bottom surface of the base (21), the first sliding blocks (211) are matched with the first sliding rails (11) and are in sliding connection, a plurality of positioning grooves (212) which are distributed at intervals uniformly along the extension direction of the first sliding rails (11) are formed in the top surface of the base (21), four first supporting columns (22) which are distributed in a matrix manner are fixedly arranged on the top surface of the base (21), first top plates (23) are fixedly arranged on the top surfaces of the four first supporting columns (22), first hydraulic cylinders (24) are fixedly arranged in the middle positions of the top surfaces of the first top plates (23), the telescopic ends of the first hydraulic cylinders (24) penetrate through the first top plates (23) and are fixedly connected with first pressing plates (25), the first pressing plates (25) are located between the base (21) and the first top plates (23), and the four first supporting columns (22) penetrate through the first pressing plates (25) and are in sliding connection with the first pressing plates (25);

punching assembly (3) include two relative interval distribution's second pillar (31), two second pillar (31) are fixed to be located base (21) top surface, two second pillar (31) are located first roof (23) one side, two second pillar (31) top surface is fixed to be equipped with second roof (32), the fixed second hydraulic cylinder (33) that is equipped with of top surface intermediate position of second roof (32), second hydraulic cylinder (33) output runs through second roof (32) and fixed connection lifter plate (34), lifter plate (34) are located first clamp plate (25) top, two second pillar (31) run through lifter plate (34) and with lifter plate (34) sliding connection.

3. An integrated machine with cross cutting and punching functions as claimed in claim 2, characterized in that: the positioning groove (212) is internally provided with a pipe fitting (213), and the pipe fitting (213) is any one of a circular pipe, a square pipe and a special pipe.

4. An integrated machine with cross cutting and punching functions as claimed in claim 2, characterized in that: the first top plate (23) is of a convex structure, and a plurality of punching grooves (231) are formed in the protruding part of the first top plate (23) and are uniformly distributed at intervals along the extending direction of the first top plate (23); the bottom surface of the lifting plate (34) is fixedly provided with a plurality of punching knives (341) which are uniformly distributed at intervals along the extending direction of the lifting plate (34), the punching knives (341) correspond to the punching grooves (231) one by one, and each punching knife (341) is coaxial with the corresponding punching groove (231).

5. An all-in-one machine with functions of transverse cutting and punching as claimed in claim 1, characterized in that: hydraulically operated fixture (4) are fixed locate quick-witted case (1) top surface, set up a plurality of edges on the fixing base of hydraulically operated fixture (4) extending direction evenly spaced distribution's constant head tank (212), feed constant head tank (212) in subassembly (2) with constant head tank (212) one-to-one in hydraulically operated fixture (4) and coaxial.

6. An integrated machine with cross cutting and punching functions as claimed in claim 1, characterized in that: the transverse cutting assembly (5) comprises a fixing block (51), two second sliding blocks (511) which are distributed at intervals relatively are fixedly arranged on the bottom surface of the fixing block (51), the second sliding blocks (511) are matched with the second sliding rails (12) and are in sliding connection with the second sliding rails, a cutting head gearbox (52) is fixedly arranged on one side surface of the fixing block (51), the cutting head gearbox (52) is connected with a motor (53), the output end of the motor (53) is opposite to the punching assembly (3), and a cutting knife (54) is fixedly arranged on the output end of the motor (53).

7. An integrated machine with cross cutting and punching functions as claimed in claim 1, characterized in that: hydraulic fixture (4) below is equipped with dump bin (13), keeps away from punch subassembly (3) one side the lateral surface of hydraulic fixture (4) is fixed to be equipped with and accomodates groove (14).

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